* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Pediatric Cardiac Disorders
Heart failure wikipedia , lookup
Electrocardiography wikipedia , lookup
Hypertrophic cardiomyopathy wikipedia , lookup
Management of acute coronary syndrome wikipedia , lookup
Antihypertensive drug wikipedia , lookup
Coronary artery disease wikipedia , lookup
Cardiac surgery wikipedia , lookup
Lutembacher's syndrome wikipedia , lookup
Quantium Medical Cardiac Output wikipedia , lookup
Dextro-Transposition of the great arteries wikipedia , lookup
PEDIATRIC CARDIAC DISORDERS It’s a worthwhile area to study! Cardiac Disorders in Peds Two major groups of disorders: Congenital Aka “born with” Most structural defects Acquired Develop later in life Bacterial endocarditis Rheumatic fever Kawasaki disease Systemic HTN Incidence & Causes 5 to 8 in 1000 live births Cause unknown Multiple factors Genetics/family history Environment Toxins Viruses Maternal chronic illness (diabetes, seizure meds) Chromosomal abnormalities Down syndrome DiGeorge syndrome Noonan or William syndrome Trisomy 13 or 18 Older Classifications of CHD Acyanotic “pink” NO unoxygenated blood goes to the periphery Cyanotic “blue” Unoxygenated May be pink blood is shunted to the periphery Newer Classifications of CHD Hemodynamic characteristics Increased Too pulmonary blood flow much to lungs; “pink”; pulmonary edema Decreased Too pulmonary blood flow little to lungs; “blue”; cyanotic Obstruction Can’t Mixed of blood flow out of the heart get to lungs or body blood flow Most common Comparison of CHD Classification Systems Background info/Hemodynamics Review fetal to neonatal circulation (also pp. 1342-1343 Hockenberry, 9th ed.) Blood flows from area of high pressure to one of low pressure (Fig. 34-7 p. 1351 Hockenberry, 9th ed.) The greater the pressure gradient, the greater the rate of flow. The greater the resistance, the lower the rate of flow In the NORMAL HEART, pressures on the R side are less than the L side, and the resistance in the pulmonary circulation is less than that in the systemic circulation. Fetal circulation Fetal to Neonatal Circulation Normal Heart Pressures(Fig. 34-7 p.1351) The proposed pulse-oximetry monitoring protocol based on results from the right hand (RH) and either foot (F). Kemper A R et al. Pediatrics 2011;128:e1259-e1267 ©2011 by American Academy of Pediatrics Tests of cardiac function Prenatal ultrasound Chest x-ray Electrocardiogram (ECG) Echocardiogram Cardiac catheterization Stress test (dobutamine or exercise) Cardiac MRI Cardiac Catheterization Invasive routine diagnostic procedure Benefits Better visualization Actual pressures, sats, hemodynamic values Risks: Hemorrhage Fever N/V loss of a pulse transient dysrhythmias Nursing interventions for Cardiac Catheterization (p.1348,9 9th ed. Hockenberry) Pre-procedure: Complete a thorough hx & physical exam Check for allergies to iodine and shellfish age appropriate teaching & preparation Don’t forget the parents NPO 4-6 hrs before procedure; sedation~ IV or po Monitor VS, SaO2, Hgb, Hct, coags, BMP Mark pedal pulses—before procedure to ensure correct palpation afterwards. Determination the amount of sedation based on the child’s age, condition & type of procedure Cardiac Catheterization Post-procedure: √ for bleeding at site of insertion of catheter in groin √ pulses esp. distal to site of insertion, temp & color of extremities, VS q 15 Remember the 5 P’s (pain, pallor, pulse, paresthesia, paralysis) OR CMTS—circulation, mobility, temperature, sensation √ heart rate for one full minute, for signs of dysrhythmias or bradycardia Prevent bleeding by keeping leg immobilized for 4-8 hrs I & O, especially O. Fluids may be offered po starting with clear liquids. √ Labs; infants are at risk for hypoglycemia—monitor blood glucose as child may need IV with dextrose Encourage the child to void to promote excretion of contrast medium. Cardiac Catheterization (cont’d) Potential cardiac catheterization complications: Nausea &/or vomiting Low-grade fever Loss of pulse in catheterized extremity Transient dysrhythmias Acute hemorrhage from entry site apply direct continuous pressure at 2.5cm above the catherter entry site to localize pressure over the location of the vessel puncture. Keep child flat and notify the physician Prepare for possible administration of additional fluids prn Cath lab Congestive heart failure (Fig. 34-8 p. 1353) Symptoms of CHF Increased work of breathing Tachycardia Decreased pulses Decreased urinary output Poor weight gain Diaphoresis with activity Hepatomegaly Cold, cool extremities, especially with stress or activity JVD? Decreased BP is LATE sign Defects with Increased Pulmonary Blood Flow Abnormal connection between two sides of heart leads to Increased blood volume on right side of heart Increased pulmonary blood flow Decreased systemic blood flow PDA, ASD, VSD Symptoms Increased work of breathing Rales/rhonchi and/or wheezing Failure to thrive Patent Ductus Arteriosus Ductus doesn’t close Common in preemies “machinery” murmur audio Treatment Indomethacin Cath lab Ligation Atrial Septal Defect Hole between two atria of heart Usually asymptomatic If not treated, increased risk of atrial dysrhythmia or stroke Usually close on own Ventricular Septal Defect Hole between two ventricles of heart Symptoms related to size & location of VSD and amount of pulmonary blood flow Fix by patching with Goretex Atrioventricular Canal ASD, VSD, and affected mitral & tricuspid valves Associated with Down syndrome Symptoms related to size of holes, degree of valvular involvement, & size of ventricles Often accompanied with pulmonary hypertension Nursing Management AVOID OXYGEN!!!!!!!! Especially pre-op Diuretics Monitor VS, I & 0, daily wt. Encourage rest periods to conserve energy Monitor labs: Hgb, Hct, electrolytes Closely monitor feedings May need higher calorie feeds Obstructive Defects Coarctation of the aorta, aortic stenosis, pulmonic stenosis Symptoms dependent upon area of obstruction Coarctation of Aorta Narrowed aorta leads to decreased systemic blood flow May not present until early childhood Bounding upper extremity pulses, weak to absent lower extremity pulses HYPERTENSION!!!!!!! Post-op Coarctation Care Neuro checks Urine output Blood pressure PAIN!!!!!!! Aortic stenosis Obstructs blood flow to body Leads to left ventricle hypertrophy Asymptomatic often Chest pain with exercise Sometimes see sudden death Repair with ballooning, repair, or replacement of valve Pulmonary Stenosis and Catheter Placement Leads to right ventricular hypertrophy which may lead to reopening of the foramen ovale. If severe, my lead to congestive heart failure. Defects with Decreased Pulmonary Blood Flow and Mixed Defects May or may not be cyanotic (usually are) Tetralogy of Fallot Transposition of Great Arteries Truncus Arteriosus Hypoplastic Left Heart Syndrome (HLHS) LOTS of other defects that are uncommon, book discusses them Effects of Hypoxemia Main clinical manifestations: Cyanosis Polycythemia Thicker blood Clubbing Clotting abnormalities Delayed growth and development – can be associated with any heart defect Hypoxemia Management Prostaglandin E1 given if cyanosis shown as newborn Assess for and treat tet spells Surgery Corrective or palliative—often staged Prevent dehydration AVOID OXYGEN!!!!! Tetralogy Of Fallot Hypercyanotic “tet spells” Acutely cyanotic ↓ pulm. blood flow & ↑ right to left shunting Prompt tx to prevent brain damage &/or death Calm infant/child Place in knee chest position Toddler will get in “squatting” position to compensate for hypoxia Give oxygen Morphine/fentanyl/versed given Knee-Chest Position Tet Repair Complicated Dependent on how big RV is, how stenotic pulmonic valve is, and how big the VSD is Either fly or die Palliative shunt: modified Blalock-Taussig shunt (p.1364, Table 34-4, 9th ed.) Complete repair—operative mortality <3%! Transposition of the Great Arteries NOT GOOD! Cath lab initially Prostaglandins Surgery at 6-7 days old— arterial switch of pulmonary artery and aorta, but also coronary arteries are switched and re-anastomosed. Long term prognosis very good Hypoplastic Left Heart Syndrome VERY VERY VERY BAD!! Mortality rates range from 10-30% (2002-04) Can not correct easily 3 staged surgeries: Norwood, Mod Blalock Taussig, & Glenn procedure vs. transplant Long-term data not in yet, will probably need transplant Management of Children with Mixed Defects Medications Digoxin—KNOW!! pp.1354- 1358—good info on meds Improves contractility of heart Review dig toxicity—pulse rates in infants & children Watch for what ?? Ace-inhibitors (angiotensin converting inhibitors—the PRIL’s) Diuretics—furosemide Reduce afterload on the heart make heart pump more efficiently. Beta-blockers—cause decreased heart rate, BP * vasodilatation Decrease cardiac workload Meds-as stated Decrease stimulation Cluster care Maintain neutral thermal environment Sedation for irritable child Remove accumulated fluid & sodium Closely monitor I&O Restrict fluid in acute phase Weigh daily if stable Continued management of CHF Nutrition Decrease respiratory effort Smaller, more frequent feeds High calorie formula Rest Avoid colds, RSV Position with HOB Avoid crying and distress Family support/education Keep them present, holding, rocking, AMAP Improve tissue oxygenation Meds assist with this by increasing efficiency of the heart Oxygen may be added with appropriate order, especially if there is pulmonary edema, or lower respiratory infection. Post-operative Care PAIN!!!!!!!!!!!!!!!!!!! Cardiac monitoring Chest tube care Heart rate Blood pressure Intracardiac pressures Quantity & quality of output Minimum 1 ml/kg/hour Deep breathing IS Rest & activity Move all extremities Back to baseline Respiratory care Urine output Neurological checks Up next day Ambulate GI distress Avoid vomiting Care of the Family and Child with Congenital Heart Disease Help family adjust to the disorder May be grieving loss of normal child Educate family Help family cope with effects of the disorder Prepare child and family for surgery Remember developmental level of child Pain, scars, IS, activity Refer to support group with families who have already been through the experience TOUCH is the IL Assoc. This link opens a broad site, then click on IL. Support group with lots of links for families and persons with CHD Website: From Cincinnati Children’s Hospital Kawasaki Disease Multisystem disorder involving vasculitis & may progress to coronary arteries causing aneurysm formation Leading cause of acquired heart dz in US Etiology still unknown 3 phases: acute subacute convalescent Criteria for KD (must meet 5 out of 6) (Box 34-10, p. 1388, Hockenberry (9th ed) fever > 5 days conjunctival infection without exudate oral changes: erythema, “strawberry tongue, fissured lips extremities changes: peripheral edema, erythema of palms and soles, peeling of hands & feet erythematous rash cervical lymphadenopathy Other manifestations Symptoms of inflammation C reactive protein level ESR Cardiac symptoms L ventricular function as seen on Echocardiogram Children do NOT generally have sx of CHF Other lab changes Anemia Leukocytosis with ‘L shift’ Kawasaki continued Tx best within first 7- 10 days. : ASA 80-100mg/kg/day initially. This is one dx that requires use of high doses of aspirin even in children. Dose is decreased to 3-5 mg/kg/day once afebrile 48-72 hrs. IVIG 2 g/kg over 8-12 hr Here is a website with some good information on the diagnosis and management of this disease: http://www.kdfoundation.org/ From the American Heart Association Newburger, J. W. et al. Circulation 2004;110:2747-2771 Education of parents Teach parents common signs of Aspirin toxicity while on high doses of ASA Tinnitus Headache Dizziness Confusion Teach parents to report recurrence of fever Teach parents CPR Inform parents that final cardiac sequelae may not be known for some time. QUESTIONS